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1

Numerical analysis of slow and fast light effect in semiconductor optical amplifier with certain facet reflection

Qin Cui, Jiang Yu, Zhen Li

Optica Applicata

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2022

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Vol. 52, nr 4

655--667

EN

In this paper, the slow and fast light (SFL) effects of the semiconductor optical amplifier (SOA) having certain facet reflections are theoretically investigated. The theoretical model is used to account for the SFL phenomenon causing the coherent population oscillation. The influence of the current modulation frequency, the value of the current, the linewidth enhancement factor, facet reflectivity as well as the relative phase of the modulated current on the phase delay in the SOA are studied. It is demonstrated that the SFL effect could be controlled by the modulation frequency, the value and relative phase of the current. Finally, it is shown that the magnitude of the SFL delay could be tuned by a change in the linewidth enhancement factor as well as the facet reflectivity of the SOA.

2

All-optical vestigial sideband carrier suppressed return-to-zero to non-return-to-zero format conversion based on spectral filtering from a cross-phase modulated signal

Metya Sanjeev Kumar

Optica Applicata

|

2019

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Vol. 49, nr 2

275--282

EN

An all-optical vestigial sideband carrier suppressed return-to-zero to non-return-to-zero format conversion is presented with the help of simulation using cross-phase modulation in a nonlinear dispersion shifted fiber. For comparative analysis, a semiconductor optical amplifier based conversion is also considered. Through the process of spectral filtering, the wavelength converted output signal is recovered from a broadened optical spectrum. Error-free conversion of vestigial sideband carrier suppressed return-to-zero pulses to non-return-to-zero format is presented at 10 Gb/s using a 210 − 1 bit sequence and is able to transmit the recovered data through a distance of 50 km having a power penalty of around 1.38 dB in the case of dispersion shifted fiber, whereas a semiconductor optical amplifier performs abysmally.

3

Research on a scheme of generating ultra-wideband doublet signal based on the cross-gain modulation in a semiconductor optical amplifier

Zhang K., Shao J.

Optica Applicata

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2018

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Vol. 48, nr 1

127--135

EN

We propose a novel scheme for generating ultra-wideband doublet signal based on the cross-gain modulation effect in a semiconductor optical amplifier. This scheme requires only a semiconductor optical amplifier and an optical source. By using OptiSystem software, we simulate and analyze the effect of the input signal light power and wavelength, the pulse width and injection current on the generated doublet pulse. In addition, the optimal range of parameters are also given in the simulation process.

4

All optical measurement of an unknown wideband microwave frequency

Kumar A., Priye V., Raj Singh R.

Opto-Electronics Review

|

2016

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Vol. 24, No. 4

191--195

EN

A novel all optical measurement scheme is proposed to measure wideband microwave frequencies up to 30 GHz. The proposed method is based on a four-wave mixing (FWM) approach in a semiconductor optical amplifier (SOA) of both even order side-bands generated by an unknown microwave frequency modulating an optical carrier. The optical power of a generated FWM signal depends on frequency spacing between extracted side-bands. A mathematical relation is established between FWM power and frequency of an unknown signal. A calibration curve is drawn based on the mathematical relation which predicts the unknown frequency from power withdrawn after FWM.

5

Półprzewodnikowe wzmacniacze optyczne w telekomunikacyjnych systemach transmisyjnych

Turkiewicz J.

Przegląd Telekomunikacyjny + Wiadomości Telekomunikacyjne

|

2015

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nr 2-3

41--45

PL

Omówiono półprzewodnikowe wzmacniacze optyczne SOA i możliwość ich wykorzystania do realizacji telekomunikacyjnych systemów transmisyjnych. Opisano budowę i zasadę działania wzmacniacza SOA oraz najważniejsze jego charakterystyki transmisyjne Zaprezentowano wyniki prac własnych nad możliwością realizacji transmisji o dużej pojemności w oknie 1310 nm, wykorzystując wzmacniacze SOA.

EN

The article is dedicated to semiconductor optical amplifiers (SOA) and the possibility of their use in the telecommunication transmission systems. The first part, describes the design and operation of SOA The next part, presents and discusses the most important transmission characteristics of SOA Finally, the research results on high-capacity transmission in the 1310 nm window using SOA are presented.

6

Wykorzystanie głębokiego nasycenia wzmacniacza SOA i efektu uśredniania mocy sygnału wejściowego do przeciwdziałania przesłuchowi międzykanałowemu i stratom mocy przy pracy SOA w systemie DWDM

Dyc F. M., Turkiewicz J. P.

Przegląd Telekomunikacyjny + Wiadomości Telekomunikacyjne

|

2013

|

nr 8-9

639-644

PL

Przedstawiono nowe podejście do przeciwdziałania przesłuchowi międzykanałowemu i stratom mocy wprowadzanym przez wzmacniacz SOA. Zakłada ono wykorzystanie głębokiej saturacji SOA oraz efektu uśredniania sygnału wejściowego. Wykazano, że efekt uśredniania ma najsilniejszy pozytywny wpływ na ograniczenie zniekształceń wprowadzanych przez SOA, kiedy wzmacniacz pracuje w głębokiej saturacji z wieloma kanałami Badano wpływ liczby kanałów, przepływności, mocy i współczynnika ekstynkcji na poziom zniekształceń.

EN

A novel countermeasure the interchannel crosstalk and resulting power penalty. The proposed method is based on the utilization of the SOA in the deep saturation and averaging of the input signal The averaging effect has the strongest positive effect in the SOA deep saturation for a high channel number. The influence of the channel number, bit rate and the signal extinction ratio on the signal distortions.

7

Transmisja i przetwarzanie sygnałów optycznych o wysokich przepływnościach wykorzystująca półprzewodnikowe wzmacniacze optyczne

Turkiewicz J. P.

Prace Naukowe Politechniki Warszawskiej. Elektronika

|

2013

|

z. 192

3--142

PL

W niniejszej pracy przedstawiono badania nad możliwością poszerzenia wykorzystania półprzewodnikowych wzmacniaczy optycznych SOA w systemach optotelekomunikacyjnych. Badania objęły zastosowania wzmacniaczy SOA zarówno do transmisji sygnałów, jak i całkowicie optycznego przetwarzania sygnałów. W ramach pracy naukowo-badawczej przebadano możliwość realizacji systemów DWDM o uproszczonej budowie i dużej pojemności transmisyjnej, wykorzystujących wzmacniacze SOA. Przebadano najważniejsze ograniczenia transmisji w oknie telekomunikacyjnym 1310 nm i określono zależności między pojemnością a zasięgiem dla badanej klasy systemów transmisyjnych. Zrealizowano i przebadano eksperymentalny system transmisyjny DWDM 8x40 Gbit/s i 8x54 Gbit/s wykorzystując SOA na pasmo 1310 nm. Przedstawiony system transmisyjny może być wykorzystany zarówno do połączeń 400 G i 1000 G Ethernet, jak i dla potrzeb centrów gromadzenia oraz przetwarzania informacji. W dalszej części pracy zaproponowano i przebadano innowacyjną metodę konwencji formatu modulacji OOK-QAM. Przedstawiono zasadę działania konwertera formatu modulacji OOK-QAM. Przedstawiono zasadę działania konwertera formatu modulacji OOK-QAM wykorzystującego konwertery długości fali. Następnie zweryfikowano możliwość generacji sygnałów 16-QAM w konwerterze wykorzystującym dwie równolegle połączone struktury SOA-MZI. Określono wrażliwość generowania sygnałów 160 Gbit/s 16-QAM na typowe zniekształcenia w transmisji światłowodowej oraz możliwość ich wykorzystania w systemach transmisyjnych o bardzo wysokiej pojemności. Przeprowadzone badania potwierdziły poprawną generację sygnału 16-QAM w proponowanym układzie konwertera formatu modulacji. Zaproponowany konwerter formatu modulacji może być wykorzystany do realizacji całkowicie optycznego styku sieci OOK i QAM oraz do generacji sygnałów o bardzo wysokich przepływnościach.

EN

The present work is dedicated to research on further expansion of semiconductor optical amplifier SOA applications in opto-telecommunication systems. The research covers transmission and all-optical signal processing applications. The feasibility to realize low-complexity high capacity DWDM transmission utilizing semiconductor optical amplifiers in the 1310 nm window is verified. Major transmission limitation in the 1310 nm window are identified, along with a presentation of countermeasures. The trade of between transmission capacity and distance is investigated. The 8x40 Gbit/s and 8x54 Gbit/s DWDM transmission system in the 1310 nm window utilizing semiconductor optical amplifiers was built and tested. The demonstrated system can be utilized in ultra-high speed 400 G and 1000 G Ethernet, as well as inter and intra center transmission. Next, a novel all-optical OOK-QAM modulation format conversion method has been presented. The principle of operation of the OOK-QAM modulation format converter based on the wavelength conversion is explained. Further feasibility of the 16-QAM signal generation in the proposed modulation format converter utilizing two parallel SOA-MZI is investigated including studies on the generated 160Gbit/s 16-QAM signal resilience to the typical fibre transmission impairments. The conducted wok has shown proper operation of the investigated OOK-QAM modulation format converter. The proposed converter can be applied at the OOK and QAM networks interface and to generate ultra-high bit rate signals.

8

Small-signal circuit modeling for a semiconductor optical amplifier monolithically integrated with a sampled grating distributed Bragg reflector laser

Lv H., Li Z., Yang T., Huang C.

Optica Applicata

|

2012

|

Vol. 42, nr 1

55-68

EN

In this paper, a small-signal equivalent circuit model of a semiconductor optical amplifier (SOA) monolithically integrated with a sampled grating distributed Bragg reflector (SGDBR) laser is presented. To take into account the wavelength dependence of the circuit parameters of our model, the extraction of parameters has been performed by fitting the circuit model including parasitic effect with measured S-parameters of the integrated device for different operating wavelengths of the SGDBR laser. The optical frequency chirp caused by the current modulation of the SOA section has been simulated by the obtained small-signal circuit model.

9

All-optical 4-bit parity checker design

Srivastava V. K., Priye V.

Optica Applicata

|

2011

|

Vol. 41, nr 1

157--164

EN

A new configuration of all-optical 4-bit parity checker is proposed that incorporates six semiconductor optical amplifiers (SOAs). The proposed 4-bit parity generator is numerically simulated by solving nonlinear coupled equations that explain the cross gain modulation (XGM) effect in individual SOAs. The full design is easy to understand. The outputs can be tested at every step with the help of waveforms. This makes easy error analysis of the circuit. The fault detection and correction can be made comfortably. This design proves that when we reach up to chip level design, the economical circuit is integration capable.

10

Stable tunable single-longitudinal-mode semiconductor optical amplifier erbium-doped fiber ring lasers for 10 Gbps transmission over 50 km single-mode fiber

Tseng C. L., Liu C. K., Lin Z. R., Chiu C. M., Lai K. C.

Optica Applicata

|

2010

|

Vol. 40, nr 4

927--933

EN

We demonstrate a stable and tunable single-longitudinal-mode SOA-EDF ring laser for high-speed data transmission systems. The laser is constructed by incorporating an SOA into the EDF ring cavity. The SOA acts as a saturable absorption high-pass filter to suppress cavity mode partition noise at low frequencies. Such design ensures a stable and single-frequency operation for more than several hours. The ring laser has a 30 nm tuning range in the C band and a 0.8 nm wavelength spacing to match 100-GHz ITU-T grids. The variation in the maximum power is smaller than 0.02 dB and the optical signal-to-noise ratio is above 53 dB. By employing this fiber laser, a 10 Gbps non-return zero data transmission over a 50 km long single-mode fiber with a power penalty less than 2.4 dB is demonstrated.

11

Theoretical study on wavelength conversion using cross-polarization modulation in a single semiconductor optical amplifier

Wang F., Xia G., Wu Z.

Optica Applicata

|

2005

|

Vol. 35, nr 2

365-375

EN

Wavelength conversion based on the cross-polarization modulation (XPM) in a single semiconductor optical amplifier (SOA) has been numerically investigated by using the theoretical model in which the birefringence has been taken into account. The results show that the non-inverted and inverted wavelength conversion can be realized through selecting reasonably the parameters; there exit some differences in the chirp, extinction ratio (ER), and eye diagram of the converted signal between the non-inverted and inverted conversion; with the increase of the bit rate, the chirp increases and the eye opening ratio (EOR) decreases.

12

Simultaneous demonstration on 10 Gb/s wavelength conversion four-wave mixing and cross-gain modulation in semiconductor optical amplifier

Li Peili, Zhang X., Zheng Z., Huang D.

Optica Applicata

|

2004

|

Vol. 34, nr 1

43-49

EN

A study is presented on wavelength conversion in semiconductor optical amplifier (SOA) when the power of the input pump light is as much as that of the input signal light, in which the four-wave mixing (FWM) effect and the cross-gain modulation (XGM) effect occur obviously at the same time and the modulation format of the converted signal light is inverted to that of the input signal light. Experimental results are in agreement with theoretical analysis